flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

4 projects honored with AIA TAP Innovation Awards for excellence in BIM and project delivery

BIM and Information Technology

4 projects honored with AIA TAP Innovation Awards for excellence in BIM and project delivery

Morphosis Architects' Emerson College building in Los Angeles and the University of Delaware’s ISE Lab are among the projects honored by AIA for their use of BIM/VDC tools.


By AIA | May 27, 2015
4 designs honored at AIA's TAP Innovation Awards

The three main massing elements (south bar, atrium, and north tower) are each designed with their own structural systems and floor-to-floor heights to maximize efficiencies. Image: Alene Davis

The American Institute of Architects (AIA) Technology in Architectural Practice (TAP) Knowledge Community developed the AIA TAP Innovation Awards to honor state of the art of the design, delivery, and management of the built environment as enabled by advanced processes and technologies.

TAP has spearheaded efforts to highlight case studies from the profession in the harnessing of BIM technology and processes to further design, construction, and project excellence. The AIA TAP Innovation Awards emphasizes how this array of new practices and technologies will further enable project delivery and enhance data-centric methodologies in the management of buildings for their entire lifecycle, from design, to construction, and through operations.

Categories for the TAP Innovation Awards include: Stellar Architecture, Delivery Process Excellence, Academic Program/Curriculum Development (none selected this year), and Exemplary use in a Small Firm.  

 

Category A – Stellar Architecture

Submissions in this category exhibited exemplary architectural design and display innovations in practices and technologies. 

Emerson College; Los Angeles
Morphosis Architects

An all-glass facade at street level invites students and the community to mingle at the public cafe. Image: Iwan Baan

 

Morphosis created a custom computational tool to layout key design elements that allowed for aesthetic and sustainable features to be developed in concert with each other. Anticipated to achieve a LEED Gold rating, this project delivers advanced energy efficiency features including radiant heating and cooling, window contacts to facilitate natural ventilation, operable sunshades, user controllability, and solar thermal collectors.

The project is expected to achieve a 15% energy cost savings over baseline figures and a 31% reduction of potable water use in all fixtures. Responding to local weather conditions, the automated sunshade system opens and closes horizontal fins outside the high-performance glass curtain-wall to minimize heat gain while maximizing daylight and views.  

 

 

Category B – Delivery Process Excellence

Submissions in this category exhibited outstanding examples of innovations in collaboration in the project delivery process to fulfill project goals. 

University of Delaware’s Interdisciplinary Science and Engineering Lab (ISE Lab);
Newark, Del.
Ayers Saint Gross

The building and site utilize best green practices, including capturing stormwater in the landscape. Image: Tom Holdsworth

 

The architect and consulting engineers developed 13 design models using BIM software, which were combined to allow a full understanding of how each building system affected the other. These models were constantly available to the construction management team and fabricators via the project cloud.

An open exchange of files between design and construction entities allowed the project to be completed 60 days ahead of schedule. Robotically-controlled bulldozers enabled a greater level of control for site grading and retention swales. A constantly evolving schedule was made possible by linking modeled elements to timelines, ensuring early or on-time completion of each phase of construction.

 

 

Honorable Mention 

OHSU/PSU/OSU Collaborative Life Sciences Building; Portland, Ore.
SERA Architects and CO Architects

The complex geometries of the building, including the atrium and its ramping system, were molded and coordinated in Revit and Navisworks. Image: Jeremy Bitterman

 

With 28 design teams in 10 states, the use of modeling software, file exchange software, cloud-based collaboration technology, and document management tools was critical to the project’s work flow. The entire construction team chose to collocate throughout the project, which allowed it to be conceived, constructed, and delivered in only 38 months.

During the latter stages of design, the architect, engineers, contractor, and subcontractors met frequently to hold clash-detection meetings, resolving system conflicts during design and easing the 3D model transition to the subcontractors. The design team calculated the total savings to the owner for their all-digital process was just under $10 million when accounting for print costs and labor hours.

 

 

Category D – Exemplary Use in a Small Firm

Submissions in this category exhibited exemplary improvements through application of progressive practices, innovative processes and advanced technologies in a firm of 10 or fewer members, at any stage(s) of the overall process of project feasibility assessment, programming, design, documentation, procurement, construction, and operation. 

D-Bridge
Point B Design

Visual voxels project structural voels' geometry into the interior, maximizing visual stimulation. Image: Point B Design

 

The D-Bridge is a yet-unbuilt architectural project and experimental structure that serves as an extension to a private gallery and residence. The core feature of the Bridge serves as both its form and structure with 1,000 laser-cut, folded cells made from flat sheets of stainless steel (voxels). By developing a cultural change in practice, the team has been able to engage everyone involved in the project to create a greater level of collaboration and understanding. 

 

The jury for the AIA TAP Innovation Awards include:
• Steven Wolf, AIA (Chair), Target Corporation
• Dr. Carrie Sturts Dossick, P.E., University of Washington
• Federico Negro, CASE
• Shane Burger, Woods Bagot
• Randall Deutsch, AIA, University of Illinois at Urbana-Champaign

Related Stories

BIM and Information Technology | Jul 1, 2015

World’s first fully 3D-printed office to be produced in Dubai

A 20-foot-tall printer will be needed for the project, spewing out construction material consisting of special reinforced concrete, fiber reinforced plastic, and glass fiber reinforced gypsum.

Sponsored | BIM and Information Technology | Jun 23, 2015

Emerging technology reinvents construction principals

Gilbane discovered the anecdotal side of laser scanning pales in comparison to the dramatic ROI story.

BIM and Information Technology | Jun 23, 2015

A steel bridge in Amsterdam will be 3D printed

To complete the bridge, multi-axis industrial robots will be fitted with 3D printing tools and controlled using custom software that enables the robots to print metals, plastics, and combinations of materials.

BIM and Information Technology | Jun 21, 2015

11 tips for mastering 3D printing in the AEC world

Early adopters provide first-hand advice on the trials and tribulations of marrying 3D printing with the science of building technology.

BIM and Information Technology | Jun 16, 2015

What’s next for 3D printing in design and construction?

The 3D printer industry keeps making strides in technology and affordability. Machines can now print with all sorts of powderized materials, from concrete to chocolate. 

BIM and Information Technology | Jun 15, 2015

Arup report predicts future of manufacturing

Human-robot collaboration, self-cleaning and self-healing materials, mass customization, and 3D printing will herald a new "golden age" of production.

BIM and Information Technology | Jun 14, 2015

Deep data: How greater intelligence can lead to better buildings

The buzzword may be “Big Data,” but the reality is that Building Teams need to burrow deep into those huge datasets in the course of designing and building new facilities. Much of the information is free. You just need to dig for it. 

Smart Buildings | Jun 11, 2015

Google launches company to improve city living

The search engine giant is yet again diversifying its products. Google has co-created a startup, called Sidewalk Labs, that will focus on “developing innovative technologies to improve cities.”

Seismic Design | Jun 9, 2015

First building-specific earthquake warning system installed in North Portland, Ore.

The ShakeAlarm system recognizes and quantifies the faster but lower-energy seismic P-wave, which is the precursor to the more damaging S-wave. 

BIM and Information Technology | Jun 8, 2015

Ready for takeoff: Drones await clearance for job site flights

The fog is finally lifting on who will be allowed to pilot unmanned aerial vehicles. 

boombox1
boombox2
native1

More In Category




Great Solutions

41 Great Solutions for architects, engineers, and contractors

AI ChatBots, ambient computing, floating MRIs, low-carbon cement, sunshine on demand, next-generation top-down construction. These and 35 other innovations make up our 2024 Great Solutions Report, which highlights fresh ideas and innovations from leading architecture, engineering, and construction firms.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021